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So I'm computing the Fibonacci numbers using Binet's formula with the GNU MP library. I'm trying to work out the asymptotic runtime of the algorithm.

For Fib(n) I'm setting the variables to n bits of precision; thus I believe multiplying two numbers is n Log(n). The exponentiation is, I believe n Log(n) multiplications; so I believe I have n Log(n)Log(n Log(n)). Is this correct, in both in assumptions (multiplying floating point numbers and number of multiplications in exponentiation with integer exponent) and in conclusion?

If my precision is high, and I use precision g(n); then I think this reduces to g(n) Log(g(n)); however I think g(n) should be g(n)=n Log(phi)+1; which shouldn't have a real impact on the asymptotics.

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Calculation involves just a multiplication and a en exponentiation right? exp(x * log(\phi)) (keep precomputed log(\phi) ). –  ElKamina Feb 15 '12 at 2:07
You are using n to represent both a number and its bit-count :| –  BlueRaja - Danny Pflughoeft Feb 15 '12 at 16:00

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up vote 1 down vote accepted

I don't agree with your evaluation.

The cost of long multiplies depends on the algorithm in use. Can be O(n^1.585) [Karatsuba], or O(n.Log(n).Log(Log(n))) [Schönhage–Strassen], or other.

The cost of exponentiation can be made O(Log(n)) multiplies for exponent n.

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